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Collaborative Research: FuSe: Indium selenides based back end of line neuromorphic acceler — NSF Award to University of Southern C

This project aims to use innovative materials called “2D materials” to enhance the capabilities of modern integrated circuits. These materials have unique electronic properties that make them very promising for compute, storage, and sensing technologies. However, integrating them with existing silicon-based technology

Award titleCollaborative Research: FuSe: Indium selenides based back end of line neuromorphic acceler
Award ID2607464
AwardeeUniversity of Southern California
CityLOS ANGELES
StateCA
Amount obligated$317,826
Principal investigatorPriyadarshini Panda
ProgramFuSe-Future of Semiconductors
Start date10/01/2025
AbstractThis project aims to use innovative materials called “2D materials” to enhance the capabilities of modern integrated circuits. These materials have unique electronic properties that make them very promising for compute, storage, and sensing technologies. However, integrating them with existing silicon-based technology has been a challenge due to temperature restrictions. Luckily, a new group of materials called “indium-based chalcogenides” offers a solution, as they can be synthesized at low tem
SourceNSF Awards

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